Energy autonomy and system lifetime are critical concerns in wireless sensor networks (WSNs), for which energy harvesting (EH) is emerging as a promising solution. Nevertheless,the tools supporting the design of EH-WSN are limited to a few simulators that require developers to re-implement the application with programming languages different from WSN ones. Further, simulators notoriously provide only a rough approximation of the reality of low-power wireless communication. In this paper we present SENSEH, a software framework that allows developers to move back and forth between the power and speed of a simulated approach and the reality and accuracy of in-field experiments. SENSEH relies on COOJA for emulating the actual, deployment-ready ...
Harvesting energy from the environment is essential for many applications to slow down the deteriora...
International audienceA complex wind-energy harvesting wireless sensor network (WSN) application for...
Dataset supporting the paper: Samuel C.B. Wong, Sivert T. Sliper, William Wang, Alex S. Weddell, Ste...
Abstract—Energy autonomy and system lifetime are critical concerns in wireless sensor networks (WSNs...
Abstract—Recent advances in energy harvesting (EH) tech-nologies now allow wireless sensor networks ...
Most wireless sensor networks (WSNs) consist of battery-powered nodes and are limited to hundreds o...
Recent developments in microcontroller, radio transceiver, and energy harvesting device design now p...
Wireless Sensor Networks (WSN) are Internet of Things (IoT) edge devices. They are becoming widely a...
International audienceIn this article, the HarvWSNet simulation framework is used to explore the fea...
In this article, the HarvWSNet simulation framework is used to explore the feasibility of a structur...
Most wireless sensor networks (WSNs) consist of battery-powered nodes and are limited to hundreds of...
Harvesting energy from the environment is essential for many applications to slow down the deteriora...
International audienceA complex wind-energy harvesting wireless sensor network (WSN) application for...
Dataset supporting the paper: Samuel C.B. Wong, Sivert T. Sliper, William Wang, Alex S. Weddell, Ste...
Abstract—Energy autonomy and system lifetime are critical concerns in wireless sensor networks (WSNs...
Abstract—Recent advances in energy harvesting (EH) tech-nologies now allow wireless sensor networks ...
Most wireless sensor networks (WSNs) consist of battery-powered nodes and are limited to hundreds o...
Recent developments in microcontroller, radio transceiver, and energy harvesting device design now p...
Wireless Sensor Networks (WSN) are Internet of Things (IoT) edge devices. They are becoming widely a...
International audienceIn this article, the HarvWSNet simulation framework is used to explore the fea...
In this article, the HarvWSNet simulation framework is used to explore the feasibility of a structur...
Most wireless sensor networks (WSNs) consist of battery-powered nodes and are limited to hundreds of...
Harvesting energy from the environment is essential for many applications to slow down the deteriora...
International audienceA complex wind-energy harvesting wireless sensor network (WSN) application for...
Dataset supporting the paper: Samuel C.B. Wong, Sivert T. Sliper, William Wang, Alex S. Weddell, Ste...